RU2037202C1 - Device for reading information from perforated token - Google Patents

Abstract

FIELD: automation and computer engineering. SUBSTANCE: device has clock oscillator, pulse distributors, AND gates, group of amplifiers, amplifier, OR gate, flip-flop, group of light-emitting units, pulse counter, groups of photodetectors, delay gates, groups of switches and shift registers. EFFECT: increased reliability of information reading. 2 dwg

Description

 The invention relates to automation and computer technology and can be used in access control systems.

One of the known devices contains three photodetectors that are optically coupled to a illuminator, three amplifiers, a control trigger, a register, AND, NOT, OR elements, a reversible counter, a decoder, a distributor, and four pulse shapers [1]
Another of the known devices contains three photodetectors, a light source, three amplifiers, two And elements, a pulse shaper, a counter, a register [2]
Closest to the proposed device is a device for reading information from a punched-hole pen containing a clock pulse generator, the output of which is connected to the input of the first pulse distributor, the first element AND, OR element, trigger, the first pulse counter, the second pulse distributor, the first n-th outputs of which (the n-number of information tracks of the punched gun) are connected through the first nth amplifiers of the first group, respectively, to the inputs of the emitters of the same group of the same name, optically coupled through the receive channel erojeton with the same photodetectors of the first group, an amplifier whose output is connected to the first inputs of the second and third AND elements and the information input of the first shift register [3]
Known devices are characterized by the absence of nodes, providing the exclusion of the influence of "bounce" when reading information from the carrier, arising from the presence of backlash, vibration, etc. during the passage of the carrier medium between the optical elements of the device, which leads to a decrease in the reliability of the read information.

 The technical result when creating this invention is to increase the reliability of reading information.

 To achieve it, a device for reading information from a punched-hole counter containing a clock pulse generator, the output of which is connected to the input of the first pulse distributor, the first AND element, OR element, trigger, the first pulse counter, the second pulse distributor, the first n-th outputs of which (n the number of information paths of the punched gun) are connected through the first nth amplifiers of the first group, respectively, to the inputs of the emitters of the same group of the same name, optically connected through the reception channel of the punched gun with the same by the receivers of the first group, the amplifier, the output of which is connected to the first inputs of the second and third elements And and the information input of the first shift register, introduces a second pulse counter, the first group of n key elements, the second group of two amplifiers, emitters, photodetectors and key elements, the second nth shift registers and the first n-th delay elements, the inputs of which are combined with the control inputs of the same key elements of the first group and are connected respectively to the first n-th outputs of the second distributor and pulses, the (n + 1) -th output of which is connected to its prohibition input, the first output of the first pulse distributor is connected to the zero input of the first pulse counter, the overflow output of which is connected to the zero input of the second pulse counter, whose overflow output is connected to the first input of the first element And, the second input and output of which are connected respectively to the output of the clock generator and the clock input of the second pulse distributor, the second and third outputs of the first pulse distributor are connected to the second inputs of the second and third AND elements, respectively, with the control inputs of the first and second key elements of the second group, respectively, and with the inputs of the first and second amplifiers of the second group, respectively, the outputs of which are connected to the inputs of the same emitters of the second group, optically connected through the channel photodetectors of the second group of the same name, the outputs of the photodetectors of both groups are connected to the information inputs of the same key elements of the corresponding groups, the outputs to of which are connected to the input of the amplifier, the outputs of the second and third elements AND are connected respectively to the first and second installation inputs of the trigger and to the corresponding inputs of the OR element, the output of which is connected to the counting input of the first pulse counter, the output of the trigger is connected to the counting input of the second pulse counter and the zeroing input the second pulse distributor, the outputs of the delay elements are connected to the clock inputs of the same shift registers, the information inputs of which are combined.

 Comparative analysis with the prototype [3] shows that the inventive device is characterized by the presence of new elements, which indicates the compliance of the invention with the condition of "novelty."

 Comparison of the claimed technical solution with the prototype and other technical solutions in this technical field did not reveal the proposed distinguishing features in the totality of the introduced blocks and connections, providing a new property and distinguishing the claimed technical solution from the prototype [3] This indicates the compliance of this solution with the condition "inventive step "

 In FIG. 1 presents a block diagram of the inventive device; in FIG. 2 punch counter.

 The device comprises a clock pulse generator 1, first and second pulse distributors 2 and 3, first third elements And 4-6, amplifiers 7 and 8 of the second group, amplifiers 9 of the first group, amplifier 10, OR element 11, trigger 12, emitters 13 and 14 the second group, emitters 15 of the first group, the first and second counters 16 and 17, the photodetectors 18 and 19 of the second group, the photodetectors 20 of the first group, the first n-th delay elements 21, the key elements 22, 23 of the second group, the key elements 24 of the first group, first nth shift registers 25, punched counter 26.

 Generator 1 provides a continuous sequence of rectangular pulses at the output (for example, if there are two information tracks on the perforator, the pulse repetition rate should be at least 16 kHz).

 Distributors 2 and 3 are binary counters connected to decoders, the outputs of the latter are outputs of the distributors.

 Emitters 13-15 are conventional infrared wavelength emitting diodes.

 Counter 16 is a binary two-digit counter.

 The counter 17 is a binary counter with the number of bits equal to the number of holes of the synchro track on the perforated counter.

 Photodetectors 18-20 are conventional photodiodes capable of operating in the infrared wavelength range.

 The delay elements 21 provide a delay of the signals for a time equal to half the duration of the pulse generated by the generator 1.

 Key elements 22-24 are made in the form of transistor switches.

 The shift register 25 contains the number of bits equal to the number of holes of the synchro track on the perforated plate.

 The punched badge 26 is part of the badge. The punched hole has several rows of holes: one row is a synchro track, and other information tracks.

 The number n of amplifiers 9, emitters 15, photodetectors 20, delay elements 21 and shift registers 25 is equal to the number n of information tracks on the perforated counter 26.

 The design of the device is such that during the movement of the perforator 26 in the device, the synchrock is read sequentially by two optocouplers (emitter 13 of the photodetector 18, emitter 14 of the photodetector 19), located one after the other along the course of the perforator 26. Moreover, since the distance between the holes of the synchro track L1 on the puncture plate 26 more than the distance L2 between the photodetectors 18 and 19, the hole of the synchro track can be located in the path of the beam of only one optocoupler. The beam of another optocoupler is blocked at this time. At the same time, the rays of these two optocouplers cannot be blocked at once. The simultaneous non-overlap of the two beams signals the removal of the perforator 26 from the device and the need to bring the circuit to its original state. Optocouplers formed by emitters 15 and photodetectors 20, are designed to read information tracks.

 The device operates as follows.

 At the input of the distributor 2 pulses from the generator 1 receives a continuous sequence of pulses. The distributor 2 operates cyclically, with a cycle period equal to (3 + n) ticks, where n is the number of information tracks on the perforated counter 26. Each tick is equal to one repetition period of the input pulses. In the first cycle, the distributor 2 resets the counter 16. At the time of the second cycle, it turns on the emitter 13 through the amplifier 7. At the time of the last cycle, the distributor 2 turns on the emitter 14.

 If the perforator 26 is not inserted into the receiving channel of the device, then the optical signals from the emitter 13 and the emitter 14 are transmitted to the photodetectors 18 and 19, respectively. The signals from the photodetector 18 and the photodetector 19 through the corresponding public keys 22, 23 (the key 22 is opened at the time of the second clock, the key 23 at the time of the last clock) come to the amplifier 10 and further to the elements And 5 and And 6. At the output of the element And 5 in the second cycle, a single signal appears, which then goes to the S-input of trigger 12. At the output of the And 6 element, in the last cycle, a single signal appears, which then goes to the R-input of trigger 12. Thus, a zero signal appears on the inverse output of trigger 12, which firstly, the slave permits that of the distributor 3 for a time equal to (n + 1) clock cycles, where n is the number of information tracks on the perforator 26. Secondly, it increases the content of the counter 17 by one. The time characteristics of the distributor 2 and the distributor 3 are similar in such a way that in one operation cycle distributor 2 signals at the outputs of the distributor 3 do not appear.

 Two pulses arrive at the counting input of the counter 16 during one cycle of operation of the distributor 2 (one from the output of the And 5 element through the OR element 11, the other from the output of the And 6 element through the OR element 11), as a result of which a signal appears that will reset counter 17. When a perforated counter 26 is inserted into the receiving channel, the optical rays overlap between the emitter 13 and the photodetector 18 and between the emitter 14 and the photodetector 19. At the same time, zero signals appear at the outputs of the photodetector 18 and photodetector 19. As a result, the counter 17 will not be reset to zero in each cycle. Further, during the movement of the perforated counter 26, the beam formed by the emitter 13 and the photodetector 18 is released. At the same time, in each cycle, a single signal appears at the output of the photodetector 18, which, passing through the key 22, the amplifier 10 and the element And 5, comes to S-input of the trigger 12. At the inverse output of the trigger 12, a zero signal appears, which allows the operation of the distributor 3. At the outputs of the distributor 3 in each cycle there are signals that through the amplifiers 9 turn on the corresponding emitter 15 for the duration of one kta. Radiation from the emitter 15 through the openings of the corresponding information path of the punched-gun 26 acts on the corresponding photodetector 20. The signal from the photodetector 20 through the corresponding open key 24 and amplifier 10 is fed to the information input of the corresponding shift register 25. Information is recorded and shifted in the register 25 by a delay in the corresponding delay element 21 for a time equal to half the cycle duration by a pulse from the first output of the distributor 3. In the next cycle, a signal will appear at the next output of the distributor 3 and then similarly to the next shift register 25 information is recorded from the next information path of the punched token, etc.

 In the (n + 1) -th cycle, at the last output of the distributor 3, a single signal will appear, which will inhibit the operation of the distributor 3. Thus, a one-time reading of information from the punched-hole chip occurs. With the further movement of the punched gun, the beam formed by the optocoupler is blocked: the emitter 13 of the photodetector 18. Then, the beam formed by the optocoupler emitter 14 of the photodetector 19 is released.

 When the beam of the optocoupler is released, the emitter 14 of the photodetector 19 a single signal from the output of the photodetector 19 through the key 23, the amplifier 10 and the element And 6 is fed to the resetting input of the trigger 12. As a result, a single signal appears at the output of the trigger 12, which resets the distributor 3. At the same time, this signal increases per unit counter content 17.

 With the further movement of the punched knife 26, the optocoupler beam is blocked in the device: the emitter 13 is the photodetector 18. As a result, the trigger 12 is set to a single state. As a result, a zero signal is set at the zeroing input of the distributor 3, which starts the distributor 3 for one cycle. The following bits of information are read from the information tracks, etc. After reading the last bits of information at the output of the counter 17, a zero signal appears, which closes the element And 4 and thereby prevents the receipt of clock pulses on the distributor 3. Reading the number of the punched hole is over. After removing the perforation counter, the counter will be reset to zero and the circuit will be restored to its initial state, and information on the number of the perforated counter will remain in the shift registers 25.

Claims (1)

 A DEVICE FOR READING INFORMATION FROM A PURCHASKET, containing a clock pulse generator, the output of which is connected to the input of the first pulse distributor, the first AND element, OR element, trigger, the first pulse counter, the second pulse distributor, the first n-th output of which (n is the number of information tracks of the punchedron ) are connected through the first - nth amplifiers of the first group respectively to the inputs of the emitters of the first group of the same name, optically coupled through the reception channel of the punched gun with the same photodetectors of the first group py, an amplifier whose output is connected to the first inputs of the second and third AND elements and the information input of the first shift register, characterized in that a second pulse counter, a first group of n key elements, second groups of two amplifiers, emitters, photodetectors and key elements, the second n-th shift registers and n delay elements, the inputs of which are combined with the control inputs of the same key elements of the first group and are connected respectively to the n outputs of the second pulse distributor, (n + 1) whose output is connected to its prohibition input, the first output of the first pulse distributor is connected to the zero input of the first pulse counter, the overflow output of which is connected to the zero input of the second pulse counter, the overflow output of which is connected to the first input of the first element And, the second input and output which are connected respectively to the output of the clock generator and the clock input of the second pulse distributor, the second and third outputs of the first pulse distributor are connected to the second by the strokes of the second and third AND elements, respectively, with the control inputs of the first and second key elements of the second group, respectively, and with the inputs of the first and second amplifiers of the second group, respectively, the outputs of which are connected to the inputs of the same emitters of the second group, optically coupled through the reception channel of the punched gun with the same photodetectors of the second groups, the outputs of the photodetectors of both groups are connected to the information inputs of the same key elements of the corresponding groups, the outputs of which are connected to the amplifier input, the outputs of the second and third AND elements are connected respectively to the first and second installation inputs of the trigger and to the corresponding inputs of the OR element, the output of which is connected to the counting input of the first pulse counter, the trigger output is connected to the counting input of the second pulse counter and the zeroing input of the second pulse distributor , the outputs of the delay elements are connected to the clock inputs of the same shift registers, the information inputs of which are combined.